&#34;power jet controller&#34; ball taype

ABSTRACT

It illustrated in FIG.  1  and FIG.  2 . A controlled reservoir with at least 2 Adjustable holes. In our example 6 adjustable holes will able an aircraft to maneuver in 3 dimensions vectors. It will give more control to the pilot to make better and quicker maneuvers. And it can help to avoid accidents. Also it will give advantage to pilot in air to air combat.

A new devise that will able a jet airplane to adjust its maneuvers in a quicker way. It will Allow a pilot of a jet airplane to make better maneuvers then without of having the Device.

The devise will gathers an air exhaust from an engine of a jet airplane to an exhaust Reservoir it can be a ball shape (or others shape). The exhaust reservoir will have at least Two controlled holes with covers. A pilot will be able to open the halls as needed by a Control switch. An airplane will maneuver to the opposite direction of an opening hole Of the reservoir exhaust stream. For example: a devise reservoir with ball shape and six Controlled halls will able a pilot to maneuver in three dimensions vectors. The reservoir Ball can be placed behind, and around 4 feet higher then a cockpit of a jet airplane. A Reflectors can be placed behind the cockpit to protect a pilot from heat of the exhaust. The exhaust reservoir can be connected by at least one exhaust line. In our example two Exhaust lines. By opening the hall in front next to the cockpit the airplane will fly Backward. By opening the bottom hall the airplane will maneuver up word. By opening The top hall the airplane will maneuver down wards. The devise can help to avoid Accidents in the air by giving the pilot more control on maneuvering the airplane Quicker with more options. The devise will give advantage to a jet fighter in air to air Combat by able a pilot that use the devise to act quicker with more option of Maneuvering for his advantage to win a battle. Each airplane will have a device exhaust Reservoir with halls that will fit its size.

Hear is a diagram that will illustrate the idea.

FIG. 1 and FIG. 2

The Power Jet Controller “Ball Type”

A. An analog control panel switches

B. Electrical Wires

C. Motor to move cover hole two ways, backward and forward.

D. Arms to move exhaust cover holes

E. An exhaust ball (can be other shapes).

F. A solid covert exhaust hale

G. An exhaust hale

H. A main engine

An analog control panel switches A, a switch no. 1 will turn on a motor C motor no. 2. The motor will move a solid cover exhaust hole G Cover no. 3 that will open a covered hole in an exhaust ball shape (can be other shapes) collector E. a stream of exhaust air from a main engine H will outlet from hole no. 3. That will cause an airplane to fly an opposite direction of the opening hole no. 3. The hole can be closed or opened as needed by the analog control panel switches. Other covers holes can be opened as needed to stir the airplane to a desired destination.

It can be operated in other methods.

A new devise that will able a jet airplane to adjust its maneuvers in a quicker way. It will Allow pilot of a jet airplane to make better maneuvers then without of having the devise. A controllable devise with at least 01 degree rotations up 360 degree rotations mechanism That will change directions of a jet engine, its outlet stream positions. This action will Change the directions of a flight of an airplane to opposite of the direction of the jet Outlet. For example advice with 360 degree rotations will able a jet engine to Maneuver 360 degree it can be controlled by the pilot from the cockpit. It can be Controlled with analog control systems. The engine can be maneuver by hydraulic pump And or with electric pump. It can be using two pieces of round rigs one with holes and one with pins that go in to the holes. A pilot will be able to rotate to a desired degree and the devise will hold this desired degree and will changed it as needed. The hydraulic and or electric pump will rotate to the desired degree and the ring with the pins will entered to the ring with the holes at the desired degree. It will change positions as needed. The aircraft

Will be able to fly in three dimensions direction. With the devise an airplane will be Able to fly up, down, backward, forward. It can help to avoid accidents in the air and in Takeoff and lending in the ground. It can help to control and maneuver an aircraft quicker and can help pilot to win air to air combat.

Each airplane will have its exhaust size of rotation of jet engine devise.

Here are diagram that will illustrate the idea.

FIG. 3 and FIG. 4

The Power Jet Controller “Switch Engine Type”

A. An analog control panel switches

B. Electric wires

C. A motor to rotate hydraulic arms.

D. Hydraulic arms can move a main engine 360 degrees.

E. A rotating metal ring (can be other materials) with pins that can rotate the main engine 360 degrees.

F. A main engine (jet engine).

G. A metal ring (can be other materials) with holes to hold and stabilized a main engine in a desired angel.

H. A motor that rotate hydraulic arms in and out of holes for safety locks.

Turning on analog switches A, a switch no. 1 will activate a motor H no. 2. It will move main engine F and a rotating ring with pines E out of a fixed metal ring (can be other materials) with holes G and it will activate a motor C no. 3 that will rotate hydraulic arms D to a desired angel. The hydraulic arms will rotate a main engine F to a desired angel. This will activate a motor H no. 2. It will move main engine F and a rotating ring with pines E in to a fixed metal ring (can be other materials) with holes G that is mounted on an aircraft body to stabilized main engine in a desired angel. The hydraulic arms D and the ring with pins E will hold main engine F safely in a de sired angel. An angel of main engine can be rotate 360 degree by turning an analog switch A to any desired angel and the same process will be activated. An aircraft will fly opposite of exhaust outlet air stream direction.

The main engine can be rotated 360 degrees in other methods.

Subject: “Aircraft Safety Tools Avoid from Crash” Bottom Inflator

In case of emergency a pilot will able to activate a devise that will inflate series at lease 1 inflator in bottom of an aircraft that will help the airplane to have softer and safer Landing. An analog control systems can be used from a cockpit of an aircraft. It can use an electric and/or hydraulic engine that can open a sliding door in the bottom of the Airplane and it will open at lease one valve pressure of gas or air that will inflate at lease one inflator. The inflator will be made of flexible and strong material like rubber to provide safer landing. For example an aircraft can have 5 inflators for 5 sections. The gas for the gas for the inflator can be for example CO2. The numbers and sizes and shapes of the inflators will be adjusted to each kind of airplane.

Here is a diagram that will illustrate the idea

FIG. 7 and FIG. 8 and FIG. 9

In case of emergency a pilot will be able to activate a device that will open series of Parachutes at least one. At least one reserve parachute will be activated in case of failure Of the first one. For example series of 5 parachutes will be activated in the top of the

Airplane 1

Parachute for each section. In each section for example will be another 3 reserve Parachutes.

A pilot will be able for example by using analog control device to activate the 5

Parachutes

In case of engine failure. A small door can be opened in the top of the airplane and a Hooked parasite to top of the airplane will be opened. The small door top can be Activated by an electric and/or hydraulic motor. This can save the airplane, the pilot Crew,

And the passengers. The numbers and sizes and shapes of parachutes will be adjusted to Each kind of airplane.

Here is a diagram that will illustrate the idea. FIG. 5 and FIG. 6 

1. A controllable figure with at least two halls will able by opening and closing each on of The halls to direct the outlet stream from a jet engine through the open halls. This action Will able to maneuver an aircraft to a desire direction. Using a controllable device. The Aircraft will move to the opposite direction of the opened hole stream outlet.
 2. The controllable figures of claim 1 can be made with any high temperature melting Point material that can handle the pressures and heat of the outlet stream.
 3. The controllable devise of claim 1 can be controlled from a pilot cockpit. It can be Controlled by analog controllable figures. It can be connected to an electrical and/or Hydraulic mechanism that will open and close the controllable figure holes of claim
 1. 4. A controllable devise with at least 01 degree rotations up to 360 degree rotations Mechanize that will change directions of a jet engine its out let stream positions. This Action will change the directions of flight of an aircraft to opposite of the direction of the jet stream outlet.
 5. A controllable figures of claim 4 can be made with any high temperature melting point Material that can handle the pressures and the heat of the outlet steam.
 6. A controllable figures of claim 4 can be controlled from a pilot cockpit. It can be Controlled by analog controllable figures. It can be connected to an electrical and/or Hydraulic mechanism that will rotate the controllable devise jet engine to a desirable Angels.
 7. A series of parachutes at least 1 will be opened in case of emergency. The parachutes Can be activated by a control analog from a cockpit of an airplane.
 8. A series of parachutes from claim 7 can be activated to save an aircraft that his engine Fail. It can be activated by a sliding door on the top of the aircraft that will let an attached parachutes in the hinges on top of the aircraft to be opened. A series of sliding doors can be opened at least one to let parachute to open to have slower descending of the aircraft.
 9. A series of parachutes of claim 7 can be with at least one back up parachute in case the First one will fail to open.
 10. A series of parachutes of claim 7 can be in a different sizes and shapes as needed to Handle the weight of the aircraft. It will be made of strong materials that can handle the Weight of the aircraft and the pressures of the out side environment. Like nylon etc.
 11. An inflated material will be activated in case of emergency to provide soft landing to An aircraft.
 12. An inflated material in claim 11 can be activated from a cockpit of an aircraft. It can use an analog control panel to control series of inflated material minimum
 1. 13. An inflated material in claim 11 can be made with flexible and strong material that Provide soft landing like inflated rubber.
 14. An inflated material in claim 11 can be activated by analog control with chamber of Pressured gas or air or other material that can open at least one valve that will release Pressured material to an inflated material like rubber. It will help provide soft landing to An aircraft that have this device. Here is a diagram that will illustrate the idea. FIG. 7 